Radiotelephone communication system



2 Sheets-Sheet l Filed Feb. 2, 1951 /N VEA/TOR D. M TCHEL L A TTORNE V Feb. 23, 1954 D. MITCHELL RADIOTELEPHONE COMMUNICATION SYSTEM 2 Sheets-Sheet 2v Filed Feb. 2, 1951 .PNR WN N In@ Q uw umm mm w ATTORNEY Patented Feb. 23, 1954 stares rarest OFF ICE;

RAIDIQTELEBHONE COMMUNICATION SYSTEM@ 'this im'cntion relates to raiiiotelephone com municaticn systems and, more particularly, to a two-Wayradiotelephonc communication systeml having a plurality of stations equipped5 for alter native transmission and reception of' signal# n1od'ula-ted-y carrierwaves over any one of? a plu@ ra-'lity of different radiant energyr communicationchannels, each channeiesmprisine oneireqi-iencyl allocation for the; transmission of carrier wavesandi another frequency allocation for the reception ofcarri'er waves.

Various types ofi wwwa-yf rad-iotelephone syss. tenisv arefknown in the art. Some of" these-sys@ tems employy a sii-agie two-fresuencyl radiant energyA chai-inet wh-io isf used by the' customers at all= the stations Within the system in much the same manner as a ccnrentionai telephone party line; Sincerv this single communication 'channel' iscom-mo-n to all thev custonfiersi"stations it hel understood that itsvuse shouldVV he restricted? to transmission from only one custcrners station atany one time: Thislis accomolshesiinaccordln ance with theigeneral' practice'hyi providing-each customers station with a lock-out device. Theseclevices are- Well know-ir in the` art and* are1 of various designs. Briefly stated, they' allI4 hav-ea common-function; namely; the-disablingvf ot'the radio transmitting; equipment at all ofthe cus tomers stations except-` the station Which-is transKH nuttin-g overthecom'mon channel at thatE time.` f

The operation off this type oi" system is satisface tory as long as theJ calling; ratcis :uo-tr high, hut,- when thev4 calli'ngrati-:eisI high, the rquality' or serv; iceis'subject tov degradation--becauseconsiderakile delays in initiating calls will he encountered duey to the singfle channel: hei-rigv bus/yf a= large" part of: the time;

Such degradation of service is avoidedl tol a certain extent hyancthertype offtwo--Way radio-'- telephone system which employs several different two-frequency radiant energy channels for use Within a pai-ticul'ai-service area, the customers within this arcas. being'dividedintoa pluralityof' groups and`I each of the channelsr being' assign'erll to'y a'- di-ilerent groupl for" the` exclusive use, ona party liner lcasis,l by allf ofi'thecustomersl Within the assignee? group-.- Since each channel is'u'sed' on a partylineloasisby all the customers irrthe eroupf' to which itis assigned",v each customersf station isl provided with'y a lock-out device' asnde'- scribed above: Thus, when any one" customer in a particulargroup` is transmitting overl his assigned' chamiell, all of the' other cmstomers:v inthat groupvl wilt heu preventedrfrom'- tr,ansllfl'ittiirg;l over the assisned` common channel. This multi-- channelfl systemifs usefuif in areas having a' largel numherfof customers, but is not' entirely' satis--y factory because delays in initiating calls will still'- beencountered wheneverthe-callng rate'v of any group is high.`

it has been discovered that suchI delays ericountered by custonersinl any oneofthe groups 'recuent-ly occur duringperiodswhen other groups' ofV customers are noti using their assigned channels'. 1n other Words, on many occasionsA when af customer is prevented from initiatinga sailY d'ne-tohis assigned' channel being busy, one or more ci the other channels in the systemioe idle. Therefore, itv canhe understood that the numberv of?- suoh delaysin. initiating calls would-he appreciably reduced if each of the customers, instead-- of seing restricted to4A a single assignedl channel; could initiatea callU over any idlev channel;

Accordingly; it is an objectl civ this invention toiprovide each customersstation a two-waymul-tichannel' radiotelephone systemA with channel selecting equipment' for selecting anyy oneE4 of the channels that is: irr an idle condition.

This and other objects of: the invention are accomplished" inI amultiehannelradioteiephone sys-ternr hy meansfwhich include providing each cnstornersstation with-l channel-selecting' equipment for tuning the customers transmitting and receivingvr equipments tol any' one of* the channels assigned tothe system. Since 4each communication` channel comprisesv` tvvo` frequencyv allocations, one for transmitting andthe other for receiving, theY channel-selecting* equipment' at each customers station is designed to'- tune'ethe associated transmitting and receiving' equipments toltheir proper companion frequenciesY each* time aw change is' maclefrornV one channel tog anotheri In order to'` prevent" interference'vwith a channel already in use,A each customersstation is pro: vided with means fer disabling its telephone transmitter andY receiver whenevera busy cha-n*- nel" selected; Atthe sanne time', an' indicating device is operated so' that' titlecustomerz will know that his'station equipment isin a' disahled'cond-i tion and'C that 'another' channel: shoulot loe-selected.' When an idle-channel isselected, the' cus'tomers transmitting and receiving equipments" are con'-vv di'tionedf-fonuse' and the;4 operation of the; indrcatingi device is discontinued' thereby* informing thecustomer that his station equipmentisjtuned to; an4 idle", cl'iannel"4 and isK ready A for purposes" of communication; z

These andA otherfeatures' off the invention are' l5 nrore fullyY discussedl in connection with' the' folembodiment of the invention, the customers stations Vi to Vl, inclusive, are mobile and are constituted by radiotelephone transmitting and re`.

ceiving equipments mounted in vehicles, such as automobiles, moving about withinv the area served by the main, or base, station M which is located in a iixed position. The invention is not restricted to use with systems having customers stations that are mobile, but may be applied to other types of systems in which all the stations are xedly located. Radiotelephone communication between the mobile stations Vi to Vl, inclusive, and the xedly located base station M is effected over three radiant energy communication channels which may be referred to as channels A, B, and C. Each of these three channels comprises two frequency allocations for the transmission of carrier waves in opposite directions. Thus, channel A comprises frequency allocations FIA and F2A, channel B has frequencies FlB and FZB, and channel C has frequencies FEC and E2C. If desired, these frequency allocations FSA to F20, inclusive, may be closely spaced within an fassigned portion of the frequency spectrum. ln addition to these three communication channels, the system also includes a fourth radiant energy channel having only one frequency allocation FS for use in transmitting selective calling signals from the oase station MI to the customers mobile stations Vi to Vl, inclusive. lit is to be understood that the invention is not limited to the specific number of mobile stations indicated in the drawing nor to the use of three two-way con munication channels as these have been set forth for purposes of description and a larger or smaller number of stations and channels may be employed if desired.

In the drawing, only the customers station VI has been illustrated in detail as it is to be understood that the other vehicular stations V2 to Vl', inclusive, are of similar design. The station VI is shown in Fig. 2 to be provided with an antenna I I and conventional radiotelephone receiving and transmitting equipments I2 and i3, respectively, which are coupled to the usual telephone handset Ill equipped with a standard push-to-talk button l5. The output of the radio receiver i2 is also coupled to selective signal receiving equipment I 6, which is of the type described by B. P. Cottrell in an article entitled Selective Calling for Mobile Telephone Service and published on pages 32 to 34, inclusive, of FM and Television, issue of January 1948. As is explained in this article, the equipment I is designed to effect the ringing of a call bell l? and the energization of a call relay Ill in response to the reception by the radio receiver i2 of an assigned selective calling signal.

In accordance with the invention, the vehicular station VI also includes a channel-selecting switch I9 for effecting the selective connection of a number of quartz crystals XIA, XEA, XlB, XZB, XIC, and X2C to frequency-determining circuits associated with the receiving and transmitting oscillators in the receiving and transmitting equipments I2 and I 3, respectively. These frequency-determining circuits may be of any appropriate design known to those skilled in the art. The actual switching of the crystals is accomplished by a plurality of relays RiA, REA, RIB, RZB, RIC, and RZC in a manner somewhat similar to that disclosed in Patent 2,575,363 issued to B. H. Simmons on November 2G, 1951, which describes means whereby the frequency of the elec-- tric wave energy generated by an oscillator can be readily'changed by substituting one crystal for another. The station Vi is further provided with other equipment and apparatus that is described hereinafter.'

The base station M is somewhat similar to the base station disclosed by A. C. Beterson in an article entitled Vehicle Radiotelephony Becomes aBell System Practice and published in volume 25 of the Bell Laboratories Record on pages i3? to 141, inclusive, the chief difference being that the station disclosed in the article is for use` tem. Due to this difference, the base station equipment disclosed in the article is duplicated at the station M for each of the channels A, B, and C. Thus, station M is provided with a toll switchboard 5! comprising a plurality of trunk circuit equipments 5I, E2, and 53, each of which includes a jack J A, JB, and JC, respectively, each jacls: being assigned for use with a diiferent one oi the three channels A, i3, and C. A plurality of plugs PA, PB, and PC, which are coupled in any suitable manner to a telephone central olce TCO, are provided for insertion into lany one of the jacks JA, JB, and JC. Associated with the jacks JA, JB, and JC are the usual line lamps 517-58- 59 and busy lamps B I-62-53. The trunk circuit equipments 5I, 52, and 53 at the toll switchboard 50 are connected by wire lines 50 to three corresponding sets of terminal equipments 34, G5, and Sii which, in turn, are connected by other wire lines 'lil to their respectively associated radio transmitters TA-TB-TC and radio receivers RA--RB-RC.

These radio transmitters and receivers are individually tuned to the various channel frequencies; that is, the transmitter TA is tuned to transmit carrier waves having the frequency FiA and its associated receiver RA is tuned to receive radiant energy having the frequency FiA, these ceing the two frequencies allocated to channel A as was stated above. Similarly, the transmitter TB A and receiver RB are tuned respectively to frequencies FIB and FB which are the frequencies allocated to channel B, and the transmitter TC and receiver RC are tuned to frequencies FiC and FEC, respectively, which are allocated to cha-nnel C.

It is to be understood that, in accordance with the method of operation discussed in the abovementioned Peterson article, the main station M may be provided with a plurality of groups ofk iixedly located radio receivers, each group being tuned to a different channel. It is to be further understoodthat, as is mentioned in the Peterson article referred to above, the various equipments, particularly the ilxedly located radio receivers, constituting the base station M need not necessarily all be located in the same building.

In order to transmit selective calling signals to the customers stations VI to Vl, inclusive, the main station M is provided with conventional selective calling equipment BI for producing shortv signalpulses.` ci 60o to` i500- cyclesv which are. al. ternatedr in accordance` with the operation of" va dial? 8-2 in a manner similar-sto that disclosed by C. N-L Anderson and M. Prud'en.- in an article entitled Radiotelephone System forl Harbor and Coastal Services and` published on pages 245.1: 253', inclusive, of the` Proceedings of thef Institute of. Radio Engineersf vol. 2T, 1939. The. sellective` calling equipment 8| is supplied with. a plug: PS` for insertioninto a jack JS associ-ated' with ano-ther trunk circuit: equipment unit 5:4 havinga busy lamp-55. ThisV trunk circuit equip-J ment 5K is connected-by' means of lone of thewire lines 60V to an additional terminal equipment. unit. 61- which. applies. the- 600:' and'v 1500' cyclepulses over one ci. thewirelines lf to a. fourth, radio transmitter TS for modulating itsrcarrierlenergy. The carrier energy' produced by the: transmitter IFS-has a frequency- FS-which isdiiferent from the frequencies FYI-:A to F250, inclusive; and which may be considered as constitutingY a calling channel. In order that theselective calling signals maybe readily received at ailv the customers" stations Vif to VT; inclusive, the channel selecting equipment at each station is designed, as is described herefinafter, to tune its associated. radio: receiver to the' call-ing chan-nell frequency FS- whenever its associated station equipment is in an idle condition.

The operation of the system may be better understood by considering the: procedure-that is followed in placing acallfrom. the base station M toany one of' the customers stations V'I. to. Vl, inclusive, such as; to the station VI which is. shown in detail in Fig. 2'. When a cal-'l comes in to the toll switchboard Sii, such as from the telephone central omce TCO; the operatorfirst looks at the busy lamp 55` associatedi with the common calling channel trunk equipment 54.. Iii' this. lamp. 551 is lighted due to some other operator calling a custemer, thenthe operator must waither turn. It the lam-p 55 is not lighted, the operator inserts the plug PS into the jack JS` and, since-the call-- ing carrier energy FS is radiated continuously.A by the transmitter TS1, immediately proceeds te rotate the dial 3-2- to effect the. modulation of the carrierv energy FFSV with the particular con'rbina` tion ci 600 to 1500- cycle pulses that-is assigned to the station-Vl?.

The resulting selective cal-ling sig-nal is received at all' the idlevehicular stations due to their radio receiversl being tuned tothe calling channel as; was stated above, but, as this particula-r calling signal isl assigned to only the station VI', onlyI the selective signal receiving equip- I ment I6 at the station Vif will respond to this calling` signal. Therefore, when the calling sigis received at station VI, it causes the signal receiving equipment IS to effect the ringing of the call bell I'l andthe energization of the call relay I8 which. operates its armatures, the operation of its. right armature closing an obvious circuit for lighting the call lamp 3|. Since the calling carrier FS is radiated continuously and since each idle customers station is` tuned-to the calling, channel', the customers codan 32 at station Vil will be operated during idle periods. Operation of the codan 32 effects the energization o f the codan relay 33 which operates its .armaturesh the inner armature connecting ground to the winding of a. relay 34 thereby closing a path for current from battery 3.5' to eilect, the energization of relay 34- ior purposes described hereinafter.

The. operation of the. left armatureA oi the call relay L8 closes a lockingV circuitor relay I8- ex,.-`

tending toi grou-nd: over the bottom contacto@ switch 36 it desired'. The-purpose of this lock-f ing circuitx is to maintain the. call lamp` Sl. lighted after a. call isz abandoned without being .answer-ed.. Thereareoccasions when a customer does not .answerv acall for various reasons, such as being absent: from his station` Onsuchoccasions, the. operator4 will' abandonthe call andi will send. a clearing pulse` to stop the bell il' from ringing. This will not'v extinguish the lamp- SI since the. locking' circuitfor the call relay i8 will closed Thus, when tllelcustornerA returnsrto. station, the lighted call: lamp-- 3lserves tdinform him that his station` was. calledduringhis abel sence. Hei should thenremove his` handset: 41 from the hook switch 35 and call' the.y operator. at the-main station-ML Iiv the customer is at his. station when the call is received, he will presumably answer it ini-me diately by removing hi'shanrdset- M; from the-hook switch 36. This permits the bottom hookf switchcontact to open thereby opening thev loch-ingcire culi-t ofthe call relay I8. ltxshoul'd' be noted .at this point,` that, when the'- station- Vl was an idle condition, a path was closed fromground 3-T over the-bottom hook switch contact and? then through the winding of? a channel-selectingrelay RS to battery 20 thereby energizingy relay RS and causing it to operate its. armature to connect ground to the quartz crystal This. servesto connect the crystal XS- toa frequencyedeterminw ing circuitv associated with theY receiving oscila later in the radioreceiver 12- in a manner simi--A lar to that described in the aboue-mentioneci application of B; El?. Simens. Thus, i'nthe. idle condition, crystal XS functions to cau-se theiradi'o receiver I2l to respondy to selective calli-'ng' signals with which the calling carrier FSS is modulated'. This condition exists at alloff the customers* sta tions Vl to Vll, inclusive, wheneverfthey are idle in orderthat' they may readilyreceiveselective calling signals transmitted from their base station The reception of a selective calli-ng sig-nai does not of itself cause thel de-energi-zation of the channel-selecting relay RS as itsr` energizing cir-- cuit remains closed until the subscriber answers the call byl removing his handset I'll from; the hook switch 36. The; removal oi the handset l@ permits the bottom hook switch contact' to, open, asv wasg'described above, thereby opening the en;- energizingl circuit of' relay' RS; Upon being thus de-energized, relay RS releasesl its armature to; discontinue the control' of the receiving oscillatorby the crystal XS.

At this same time, the middle hook switch contact becomes closed and connects ground 3'1 over; anobvious circuit to the winding of aratchetlock relay 38thereby enabling currentfrom battery 33 to energize relay 3.8.'. The armature ofrelay 3s normally biased. in, its unonerated position` by any` suitable meanssuch. as aA Spring' 4I'. When this,

7 l2, the switch arm I9 is pulled by the spring 45 into engagement with contact a. This is the normal position of the switch arm I9 because, in the idle condition, the ratchet lock relay 3d is de-energized and the pawl 42 is held in its retracted position by the spring 4I. Therefore, when the middle hook switch contact becomes closed, it applies ground 3'! to conductor A6 thus completing a path extending over switch arm I9 and contact a to the junction point 41. rent from batteries 2| and 22 to flow through the windings of relays RIA and RZA, respectively, to the junction point il and then over the abovementioned path to ground 3l. Relays RIA and R2A consequently become energized and operate their armatures to apply ground to the crystals XIA and XZA which are connected to the frequency-determining circuits associated with the receiving and transmitting oscillators, respectively, thus preparing both the receiver I2 and the transmitter i3 for operation over channel A.

If it be now assumed that channel A is busy, then the transmitter TA at the base station M will be radiating the carrier FIA which, upon being received at the customers station Vi, will cause the radio receiver I2, now tuned by the crystal XIA to the frequency FIA, to operate the codan 32 which, in turn, will energize the codan relay 33. Since the codan relay 33 is ci the slowto-release type having a delay period of around 0.1 second and since the interval of time between the switching `from crystal XS to crystal Hin less than 0.1 second, the armatures of relay 351 will be held operated without interruption. Accordingly, the circuit for energizing relay 3ft will be maintained closed by the operated inner armature of relay 33. Similarly, the outer armature of relay 33 will be held operated thereby holding open its normally closed set of contacts with the result that the energizing circuits of the receiver control relay 2l and the transmitter start relays 2B and 29 will also be open and their armatures will not be operated.

Therefore, the circuit extending from the radio receiver I2 to the earphone le in the handset it will be open at the armature and contact of the l2- tc-talk button l5 on the handset it will be open at the lower armature and contact or" relay 2t. This renders operation of the push-to-talk button I5 ineffectual to start the transmitter i3 thereby preventing the customer at station Vi from transmitting over channel A at this time. Since relay 33 is energized, its armatures are operated and, consequently, a circuit is closed extending frcm ground 3l, over the closed middle hook switch contact, over the now closed normally open make-before-break contacts of the outer armature of relay 33, operated outer armature and contact of relay 34, and then through the call lamp 3| to battery 3m. The closure of this last-mentioned circuit maintains the call lamp 3l lighted without any interruption at this time thereby informing the customer at station VI that channel A. is busy. Thus, the lamp 3I functions both as a call lamp and as a busy lamp.

Upon noticing that the lamp 3I remains lighted, the customer at station VI proceeds to select 'i another channel by manually moving the channel-selecting switch arm i9 to its associated contact b. This opens the energizing circuits of relays RIA and RZA which release their armatures to discontinue control of the receiving and This permits curtransmitting oscillators by the crystals XIA and XEA. Due to the ratchet lock relay 39 being maintained in an energized condition, its armature forces the pawl i2 into engagement with a tooth of the ratchet 43 thereby holding the switch arm i9 on the contact b. With the switch arm i9 thus held on the contact b, current from batteries 23 and 24 will now flow through the windings of relays RIB and RZB, respectively, to the junction point t8, contact b, switch arm I9, conductor 46, and then over the middle hook switch contact to ground 3l. Upon being thus energized, relays RiB and B2B operate their armatures to connect ground to the frequency-determining crystals XIB and XZB, respectively. to prepare the receiver I2 and transmitter I3 for operation over channel B.

if it be assumed that channel B is idle, then the transmitter TB at the base station M will not be radiating any carrier energy because in this type of system no carrier is radiated over an idle channel. Due to this absence of carrier energy, the operation of the codan 32 is discontinued with the result that the codan relay 33 is de-energized and, after the expiration of its delay period releases its armatures. The release of the outer armature of relay 33 permits its associated contacts to return to their normal condition shown in the drawing thus closing a path extending from ground 3l to the junction point i3 and then along a conductor i and through the winding of the receiver control relay 2'? to a battery '15. Relay 2'! consequently becomes energized and operates its armature to connect the customers earphone, or telephone receiver, lid to the radio receiver I2. Since the now-grounded junction point 'it is coupled by a conductor 'i8 to the Windings of the transmitter start relays 28 and 29, current from batteries TI and 'l will now energize relays 28 and 29, respectively, and cause them to operate their armatures. The operation of the outer armature of relay 2S completes an obvious enabling circuit for the push-to-talk button I so that the transmitter I3 will produce carrier energy of the frequency P2B when the customer at station VI presses the push-to-talk button I5. The operation of the inner armature of relay 28 and the armature of relay 29 perform a function that is described hereinafter.

The release of the inner armature of relay 33 opens the above-described energizing circuit of relay te which, in turn, releases its armatures. The inner armature of relay 36 now engages its contact to complete a path for current from battery Sii to iiow through resistor 'EI and over the Y upper hooi; switch contacts, which are now closed due to the handset it having been removed from the hooi; switch and then to ground l2. The closing of this shunt circuit across the winding of relay 295i serves to lock relay (iii in its unenergiaed condition so that it cannet again be eneruntil `the upper hook switch contacts are opened by the replacing of the handset M on the hooi; switch 33. The release of the outer armature of relay 3d opens the lighting circuit of the lamp 3 i. Lamp 3i consequently now becomes extinguished thus indicating to the customer at station V! that he has now selected an idle ccmmunication channel.

The above-mentioned operation of the armature of the transmitter start relay 23, closes a path eutending from battery 'i9 over the armature of relay 29, which is of the slow-to-operate type, to a conventional starting circuit in the transmitter I3. This causes the radio transmitter I3 to produce carrier energy of the frequency FZB which is radiated'from antenna -I'l t0. the base. .station The carrier energythus radiated is o short duration and isy in the .nature of :a pulse because the other 4ttransmitter vstart relay V29, at the expiration 4of Aits delay period, operates itsy armature .to .disconnect battery 'i9 from. the transmitter S3.. When this spurt vor carrier is received by the radio receiver .RB fat the .base station M, it; operates lthe feodan :associated therewith which, '-turn., closes a ycircuit for effecting the lighting l.of the `line lamp k5t in the usual manner. This ,last-mentioned circuit locksy up so that the lamp 58 remains lighted Iuntil any one of the plugsPA, PB, or PG is inserted in the rjack JB. Thus, theiighting of the line lamp 53 serves to indicate .to the operator at the main station M that the customer at, station VI has acknowledged the call and is prepared to answer it over -communication channel B.

The operator at the .base station M accordinglyl inserts one of the plugs PA, PB, or 4i-"C into the jack JB. This extinguishes the line lamp 58;, .as was mentioned above, .and .also eiects :the starting of the radio transmitter TB in the usual manner. The transmitter TB inow causes carrier energy of lthe frequency FIB to be radiated yand this will .be received by the antenna Ii atA the station VI. Since the radio receiver I2 .at Istation VI is now tuned tothe frequency FIB bythe crystal XIB, it eects the reoperation of the codan 32 and, in turn, the energize-tion of the codan relay 33. .Due to .the fact that relay 34 is locked in its unenergized condition, as kwas described above, the lamp 31 `will not be vlighted at this time." It should be noted that the junction point 'I3 remains grounded without interruption as the outer contacts of the codan relay 33 are of the make-before-break type and therefore close a path from gro-und 31 over the operated outer armature of relay 33 and vreleased outer armature and contact of relay 34 before the break contacts of relay 33 .are opened. This serves to maintain the receiver control relay 21 and the transmitter start relays 28 and 29 en.- ergized. The system is thus placed in the proper condition for two-way communication over channel B. During the course of this communication, the customer at station VI presses the push-totalk button I5 whenever he wishes to transmit.

After communication has been concluded, the operator at the base station M removes the plug from the jack JB which stops the operation of the transmitter TB, and the customer at station VI replaces his handset I 4 on the hook switch 36. The upper hook switch contacts now open to disconnect ground 'I2 from battery 35 thereby opening the circuit described above for locking relay 34 in its unoperated condition. The middle hook switch contact is also opened at this time to disconnect ground 31 from the energizing circuits of the ratchet lock relay 38, the receiver control relay 21, and the transmitter start relays 28 and 29. These relays now release their armatures to disconnect the earphone d4 from the radio receiver I2, to open the transmitter starting circuit, and to permit the springr 4I to pull the pawl 42 out of engagement with the ratchet 43. The release of the ratchet 43 allows the spring 45 to pull the switch arm i9 down to the contact a thereby opening the energizing circuits of relays and 24. At this same time, the ground 31 is connected to the bottom hook switch Contact to complete the circuit for energizing relay which operates its armature to effect the tuning of the radio receiver I 2 to the selective calling channel frequency FS. In this manner,

l@ the .cnstomers .station Vi is restored to its. idle condition with all of its equipment placed in condition for receiving vanother selective calli-ng signal.

In the event that the customer at .station VI wishes to initiate a call, he removes his handset .I4 from the hook switch 3b thereby yopening the bottom hook switch contact and ydisconnecting ground 3l from battery 2d. This causes relay RS to. release its armature to discontinue the control vof the radio receiver I2 by the crystal XS. The middle .hook switch contact now closes lto complete a circuit extending from ground 3'! over conductor t6, switch arm I9, contact a, and then through the windings of relays RIA and RZA to batteries 2i and 22. Relays RIA and RZA now become energized and operate their armatures to apply vground to crystals XiA and X2A thus preparing the receiver I2 and the transmitter I3 for operation over channel n..

If .channel A is idle, then the codan 32, which was operated by the continuously radiated call-` ing carrier FS, will discontinue its operation.- Consequently, at the expiration of its delay .pes riod, the armatures of the codan relay 33 will move to their released positions vwith the result that contacts associated with the outer armature of relay 33 will connect ground 3l to the junction point 'I3 to complete the energizing circuits of the/receiver control relay 21 and the transmitter start relays 28 and .29 as was described above. The release of the inner armature of relay 33 opens the energizing circuit of relay .34 thereby causing it to release its armatures. The release ofthe outer armature of relay 34 opens the circuit for energizing the lamp 3|. The release of the inner armature .of relay 34 `connects ground 'I2 over the `upper hook switch contacts to battery '35 thereby looking relay 3d in its uri-ener-l gized `condition so that the lamp 3i will notibe lighted when carrier is subsequently received over channel A. Absence of illumination in the lamp 3| serves toinform the customer that channel A is idle. Accordingly, the customer presses his push-to-talk button :I 5 and proceeds with his call.

However, if channel A is busy, then the codan 32 will be operated and the armatures of the slow-to-release codan relay 33 Will be held operated without interruption as was described above. Under this condition, the operated inner armature of relay 33 will maintain closed the circuit for energizing relay 34 which accordingly holds its armatures operated. A path will now be closed extending from ground 3l, over the closed middle hook switch contact, over the operated outer armature of relay 33 operated outer armature of relay 34, and then through the call lamp 3I to battery Sla. The closure of this path effects the lighting of the lamp 3| thus indicating to the customer that channel A is busy and that he should operate the channel selecting switch arm I9 to select another communication channel in the manner described above.

This particular embodiment of the invention has been described in order to explain the principles and features of operation of the invention. Various modifications thereof may be made Within the spirit and scope of the invention. For example, instead of employing a manually oper able channel-selector, each customers station could be equipped with an automatically operable channel-selector. One way in which the channel-selector could be operated automatically would be to employ a conventional stepper magnet the energization of which could be controlled by the codan relay 33 for operating the ratchet 43 step-by-step and thereby successively moving the channel-selector arm I9 from its contact a to contact b and then to contact c.

What is claimed is:

1. ln a radiotelephone communication system having a plurality of radiant energy communication channels allotted thereto for the transmission of carrier Waves, a communication station comprising in combination radiotelephone transmitting and receiving equipments for transmitting and receiving carrier Waves, a telephone instrument, a coupling circuit ier eiectrically coupling said instrument to said radiotelephone receiving equipment, a starting circuit for effecting the starting of said radiotelephone transmitting equipment, both of said circuits being normally open, a holder for holding said instrument during idle periods, channel-selecting means for selectively conditioning said equipments for operation With any one of said channels, said chan nel-selecting means being normally disabled, said system having a calling channel distinct from said communication channels, electroresponsive means for tuning only said radiotelephone receiving equipment to said calling channel, an indicator for indicating the selection of a busy channel by said channel-selecting means, a circuit for energizing said indicator, said energizing circuit having two normally open portions, means actuated by the removal of said instrument from said holder for closing one of said normally open portions of said energizing circuit and for disabling said electroresponsive means and for enabling said channel-selecting means, and a device responsive to the selection of a busy channel by said channel-selecting means for maintaining said coupling and starting circuits open and for eiecting the closing of the other normally open portion of said energiang circuit.

2. In a radiotelephone communication system in accordance With claim 1 and having a rst instrumentality at said communication station for closing said coupling circuit, and a second instrumentality at said station for closing said starting circuit, said device being responsive to the selection of an idle channel by said channelselecting means for effecting the opening of said second portion of said energizing circuit and for effecting the closing of said coupling and start-- ing circuits by said iirst and second instrumentalities.

3. A radiotelephone communication system having a plurality of radiant energy communication channels allotted thereto for the transmission of carrier waves, said system having a rst communication station provided with means for transmitting selective calling signals over an assigned one of said channels, a second communication station comprising in combination radiotelephone transmitting and receiving equipments for transmitting and receiving carrier waves, channel-selecting means for eiecting the selective tuning of said equipments for operation with any one of said channels except said assigned channel, means responsive to an idle condition at said second station for effecting the tuning of said receiving equipment to said assigned selective calling channel, an indicating device, a selective signal operated device responsive tothe reception of an assigned selective calling signal by said radiotelephone receiving equipment for operating said indicating device, a carrier operated device having a time delay, said carrier operated device being responsive to carrier current received over a :busy channel selected by said channel-selecting means for maintaining said indicating device in an operated condition after it has been operated by said selective signal operated device.

DOREN MITCHELL.

References Cited in the i'lle of this patent UNITED STATES PATENTS Number Name Date 2,408,085 Meacham Sept. 24, 1946 2,440,239 Almquist Apr. 27, 1948 2,479,701 Ress Aug. 23, 1949 

